CN210935791U

CN210935791U - Ready-mixed mortar waste residue is from station again

Info

Publication number: CN210935791U
Application number: CN201921621490.1U
Authority: CN
Inventors: 考宏宁
Original assignee: Anhui Wogao Ready Mixed Mortar Co ltd
Current assignee: Hefei Water New Building Materials Co ltd
Priority date: 2019-09-26
Filing date: 2019-09-26
Publication date: 2020-07-07
Anticipated expiration: 2029-09-26

Abstract

The utility model relates to a ready-mixed mortar waste residue is separation station again, the power distribution box comprises a box body, inside cavity of box and open-top, be fixed with first support and second support on the position that the diapire is close to the box both ends respectively in the box, rotate between first support and the second support and install the cylinder, feed inlet and discharge gate have been seted up respectively at the both ends of cylinder, a plurality of sieve meshes have evenly been seted up on the arc of cylinder surface, install on the box and be used for ordering about cylinder pivoted first drive assembly, still install the cell body that is used for unloading out the building stones on the box, a clearance subassembly that is used for collecting the lower hopper of sand material and is used for clearing up the cylinder. The utility model discloses when carrying out the grit separation, the staff only needs to clear up the cylinder in real time through the clearance subassembly, can reduce the possibility that the sieve mesh was gone up to the sand material jam cylinder to this has guaranteed going on smoothly of grit separation work.

Description

Ready-mixed mortar waste residue is from station again

Technical Field

The utility model belongs to the technical field of the grit separation technique and specifically relates to a ready-mixed mortar waste residue is from station is related to.

Background

The sand-stone separator is the core equipment of a concrete recovery system. The industry adopts drum-type sand-stone separator to carry out recycle to building stones and sand material in the ready-mixed mortar waste residue usually, and drum-type sand-stone separator's theory of operation is that the cylinder that is located sand-stone separator center is high-speed rotatory under drive assembly's drive, because sand material and building stones have weight difference, separates away lighter gravel through the sieve mesh on the cylinder through the effect of centrifugal force to reach the purpose of separation grit.

At present, a Chinese utility model with publication number CN203816765U discloses a concrete sand-stone separator, which comprises an upper cover body, a lower box body, a slurry overflow port, a stone outlet, a sand outlet, a driving device, a roller separator, a diversion trench, a transmission device and a water pipe; the roller separator comprises a roller, and sieve pores with the same aperture are arranged on the roller; the diversion trench is connected with the roller feeding pipe; the transmission device comprises a blade shaft, a plurality of helical blades which are integrally conical are arranged on the blade shaft, and the helical blades are in a propulsion mode; the driving device comprises a driving motor and a speed reducer, wherein the driving motor is connected with one end of the blade shaft through the speed reducer, and the other end of the blade shaft is rotatably connected with the roller separator; the water pipe is high pressure water and passes through the inside of the drum separator. When carrying out grit separation work, the cylinder is high-speed rotatory under drive arrangement's drive, and mud is owing to receive the effect of this kind of rotary force with grit separation, and the grit is separated out through the sieve mesh on the drum sieve, sees off from the sand export, and the stone is seen off from the stone export under transmission drives to realize grit separation.

Above-mentioned technical scheme reaches the purpose of separation grit through set up the sieve mesh on the cylinder. However, if the sieve holes are not cleaned in time in long-term use, the sieve holes are easily blocked by sand, so that the efficiency of separating sand from the separator is reduced, and even the roller is damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a ready-mixed mortar waste residue is from station again, this ready-mixed mortar waste residue is from station again can in time clear up the cylinder of screening grit, has reduced the possibility of sieve mesh on the sand material blocks up the cylinder.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a ready-mixed mortar waste residue is separation station again, the power distribution box comprises a box body, inside cavity and open-top of box, be fixed with first support and second support respectively on the position that the diapire is close to the box both ends in the box, rotate between first support and the second support and install the cylinder, feed inlet and discharge gate have been seted up respectively at the both ends of cylinder, a plurality of sieve meshes have evenly been seted up on the arc of cylinder on the surface, install on the box and be used for ordering about cylinder pivoted first drive assembly, still install the cell body that is used for unloading the building stones on the box, be used for collecting the lower hopper of sand material and be used for clearing up the clearance subassembly of cylinder.

By adopting the technical scheme, when sand and stone separation is carried out, workers only need to add mortar waste residues needing to be separated into the roller from the feed inlet of the roller, the roller is driven to rotate by the first driving component, sand materials with smaller particles fall into the discharging hopper from the sieve mesh, stone materials with larger particles are left in the roller, and then the stone materials enter the groove body, so that sand and stone separation is realized; simultaneously, the staff only needs to clear up the cylinder in real time through the clearance subassembly, can reduce the sand material and block up the possibility of sieve mesh on the cylinder to this has guaranteed going on smoothly of grit separation work.

The utility model discloses further set up to: the cleaning assembly comprises a third support fixed on one side of the box body, a fourth support fixed on the other side of the box body, a third motor fixed on the third support, a second inclined rod fixed at the end part of an output shaft of the third motor and bristles fixed on the second inclined rod, one end, far away from the output shaft of the third motor, of the second inclined rod is rotatably connected with the fourth support, and the end part of each bristle is tightly abutted to the arc-shaped outer surface of the top of the roller.

By adopting the technical scheme, when the cleaning assembly is used for cleaning the roller, a worker only needs to start the third motor, the third motor drives the second inclined rod fixed with the output shaft of the third motor to rotate after working, and meanwhile, the second inclined rod drives the bristles fixed with the second inclined rod to rotate so as to clean the roller; in addition, the worker can enable the rotation direction of the bristles to be opposite to that of the roller by adjusting the running direction of the third motor, so that the effect of cleaning the roller by the bristles is improved.

The utility model discloses further set up to: and an output shaft of the third motor is fixed with the second inclined rod through a coupler.

Through adopting above-mentioned technical scheme for the output shaft of second down tube and third motor is convenient for separate, with this be convenient for the staff installation with dismantle the second down tube, thereby be convenient for the staff changes the brush hair of damage.

The utility model discloses further set up to: and the tops of the third support and the fourth support are jointly fixed with a protective cover for protecting bristles.

Through adopting above-mentioned technical scheme, the safety cover has played good guard action to the brush hair, has reduced the probability that the brush hair stands to the sun and rain to reduce the damage speed of brush hair, make the life of brush hair can prolong.

The utility model discloses further set up to: still be fixed with the sand material conveyer pipe that the slope set up on the box lateral wall, the lower extreme of sand material conveyer pipe runs through the box lateral wall, down the hopper lower extreme and sand material conveyer pipe are fixed and communicate, sand material conveyer pipe is close to and is fixed with the sand material exit tube on its upper end's the lateral wall, still install on the sand material conveyer pipe and be used for promoting sand material along sand material exit tube exhaust second drive assembly from sand material conveyer pipe.

Through adopting above-mentioned technical scheme, the sand material by the cylinder whereabouts gets into hopper down to get into the sand material conveyer pipe by hopper down, afterwards, staff's accessible second drive assembly orders about the sand material and discharges along the sand material exit tube from the sand material conveyer pipe.

The utility model discloses further set up to: the area of the upper end opening of the lower hopper is larger than the area of the cross section of the roller, which is coincided with the diameter of the roller.

Through adopting above-mentioned technical scheme, when the staff used the clearance subassembly to clear up the cylinder, the sand material by the brush hair brush down dropped along the arc surface of cylinder, in whole hopper down that gets into afterwards to get into the sand material conveyer pipe with the sand material of screening and transmit together, be favorable to the staff to collect the sand material that the brush hair brush falls.

The utility model discloses further set up to: the second driving assembly comprises a second motor fixed at the upper end of the sand conveying pipe, a first inclined rod fixed at the end part of an output shaft of the second motor and a packing auger fixed on the first inclined rod.

Through adopting above-mentioned technical scheme, when using the second drive assembly to order about sand material along sand material exit tube discharge from sand material conveyer pipe, the staff only need open the second motor, and the second motor drives the first down tube rather than the output shaft is fixed after the work and rotates, and first down tube then drives the auger and rotates to make sand material in the sand material conveyer pipe along sand material conveyer pipe rebound, at last from the sand material exit tube discharge on the sand material conveyer pipe.

The utility model discloses further set up to: first drive assembly is including being fixed in first motor on the first support, being fixed in the dwang of first motor output shaft tip and being fixed in the dead lever on the dwang, the dead lever is kept away from the one end of dwang and the inboard arc fixed surface of cylinder, the cylinder is the loudspeaker form, and the area of the cross section of cylinder is decreased progressively by the feed inlet to the one side linearity that is close to first motor.

Through adopting above-mentioned technical scheme, when carrying out grit separation, the staff adds the mortar waste residue that needs the separation to the cylinder from the feed inlet of cylinder, and first motor work back drives the dwang and rotates, and simultaneously, the dead lever rotates along with the dwang is synchronous to it takes place to rotate to drive the cylinder, because the cylinder is the loudspeaker form, consequently, at cylinder pivoted in-process, building stones in the cylinder remove to discharge gate one side gradually, and at last, building stones are from cell body discharge box.

To sum up, the utility model discloses a beneficial technological effect does:

when the sand and stone separation is carried out, workers only need to add mortar waste residues needing to be separated into the roller from the feed inlet of the roller, the roller is driven to rotate through the first driving assembly, sand materials with smaller particles fall into the discharging hopper from the sieve holes, stone materials with larger particles are left in the roller, and then the stone materials enter the groove body, so that the sand and stone separation is realized; meanwhile, workers only need to clean the roller in real time through the cleaning assembly, so that the possibility that sand blocks sieve holes in the roller can be reduced, and the smooth operation of sand-stone separation is guaranteed;

in the scheme, when the cleaning assembly is used for cleaning the roller, a worker only needs to start the third motor, the third motor drives the second inclined rod fixed with the output shaft of the third motor to rotate after working, and meanwhile, the second inclined rod drives the bristles fixed with the second inclined rod to rotate so as to clean the roller; in addition, the worker can enable the rotation direction of the bristles to be opposite to that of the roller by adjusting the running direction of the third motor, so that the effect of cleaning the roller by the bristles is improved;

in this scheme, the safety cover has played good guard action to the brush hair, has reduced the brush hair and has experienced the probability that the sun shines to rain to reduce the damage speed of brush hair, make the life of brush hair can prolong.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a cross-sectional view of the structure of fig. 1.

Reference numerals: 1. a box body; 11. a first bracket; 12. a second bracket; 13. a trough body; 2. a first drive assembly; 21. a first motor; 22. rotating the rod; 23. fixing the rod; 3. a drum; 31. screening holes; 32. a feed inlet; 33. a discharge port; 4. feeding a hopper; 5. a sand conveying pipe; 51. a sand material outlet pipe; 52. a support bar; 6. a second drive assembly; 61. a second motor; 62. a first diagonal member; 63. a packing auger; 7. cleaning the assembly; 71. a third support; 72. a fourth bracket; 73. a third motor; 74. a second diagonal member; 75. brushing; 76. a coupling; 77. a protective cover.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figure 1, for the utility model discloses a ready-mixed mortar waste residue is from station again, including box 1, first support 11 and second support 12. The box body 1 is of a cuboid structure, the interior of the box body is hollow, the top of the box body is opened, and the box body 1 is fixed on the ground. The first bracket 11 is U-shaped, and both ends thereof are fixed to the inner bottom wall of the case 1. The second bracket 12 is also U-shaped, and both ends of the second bracket 12 are fixed to the inner bottom wall of the box body 1, and the second bracket 12 and the first bracket 11 are respectively located at both sides of the box body 1.

As shown in fig. 1, the first driving assembly 2 is mounted on the case 1, and as shown in fig. 2, the first driving assembly 2 includes a first motor 21, a rotating lever 22, and a fixing lever 23. The axial direction of the output shaft of the first motor 21 is parallel to the length (l) direction of the box body 1, and the first motor 21 is fixed on the top of the box body 1. The rotating rod 22 is a round rod, the axis of the rotating rod coincides with the axis of the output shaft of the first motor 21, and two ends of the rotating rod 22 are respectively connected with the first bracket 11 and the second bracket 12 in a rotating manner. The fixing rods 23 are rod-shaped structures, the number of the fixing rods 23 is multiple, the fixing rods 23 are uniformly fixed on the peripheral side wall of the rotating rod 22, and the rollers 3 are jointly installed on the fixing rods 23. The cylinder 3 is round platform column structure, and its inside cavity, the cross section of cylinder 3 are circular, and the axis of cylinder 3 and dwang 22's axis coincidence, the inboard arc surface of cylinder 3 and dead lever 23 keep away from the one end of dwang 22 fixed, and evenly seted up a plurality of circular shape sieve meshes 31 on the cylinder 3 to this is convenient for the interior sand material of cylinder 3 to fall in the sieve mesh 31. A feed inlet 32 is formed in one end of the roller 3 close to the second bracket 12, the cross section of the feed inlet 32 is circular, and the axis of the circular shape coincides with the axis of the roller 3, so that the worker can add the mortar waste residue to be separated into the roller 3. The end of the roller 3 close to the first bracket 11 is provided with a discharge port 33, the cross section of the discharge port 33 is circular, the circular axis is also overlapped with the axis of the roller 3, and the area of the cross section of the roller 3 is linearly increased from the second bracket 12 to one side of the first bracket 11, so that stone in the roller 3 moves to one side of the discharge port 33. The side wall of the box body 1 is provided with a groove body 13 at a position close to the discharge port 33, the groove body 13 is of a groove-shaped structure with a U-shaped cross section, the groove body 13 is obliquely arranged, the upper end of the groove body 13 is positioned at the lower side of the discharge port 33, and the lower end of the groove body 13 extends to the outer side of the box body 1, so that stones can be conveniently discharged out of the box body 1 from the discharge port 33.

As shown in fig. 1, a discharging hopper 4 is installed in the box 1, the discharging hopper 4 is of a large funnel-shaped structure, and the area of the upper end opening of the discharging hopper 4 is larger than the area of the cross section of the roller 3 coinciding with the diameter of the roller 3, so that sand falling from the discharging hopper 4 completely enters the discharging hopper 4. As shown in the combined figure 2, the side wall of the box body 1 is provided with a sand conveying pipe 5, the sand conveying pipe 5 is of a circular tubular structure, the sand conveying pipe 5 is obliquely arranged, and the lower end of the sand conveying pipe 5 penetrates through the side wall of the box body 1 and is fixed and communicated with the lower end of the discharging hopper 4. Install sand material exit tube 51 on the sand material conveyer pipe 5, sand material exit tube 51 is square tubular structure, and sand material exit tube 51 is fixed in on the position that sand material conveyer pipe 5 is close to its top for the sand material in the discharge sand material conveyer pipe 5. When carrying out grit separation, the staff only needs to add the mortar waste residue that needs the separation in to cylinder 3 from the feed inlet 32 of cylinder 3, at this moment, the staff opens first motor 21, first motor 21 drives after the work and rotates rather than the fixed dwang 22 of output shaft, dwang 22 drives rather than fixed dead lever 23 and rotates, dead lever 23 then drives cylinder 3 and takes place to rotate, thereby separate the mortar waste residue in the cylinder 3, in the disengaging process, the less sand of granule falls to hopper 4 down from the sieve mesh 31 of cylinder 3 in, the sand gets into in the sand conveyer pipe 5 by hopper 4 down afterwards, and the less one end of inner diameter of cylinder 3 is then carried to the great one end of inner diameter of cylinder 3 from the great building stones of great granule, at last get into in the cell body 13 and discharge box 1 from discharge gate 33.

As shown in fig. 1, a support rod 52 is disposed at the bottom of the sand conveying pipe 5, the support rod 52 is a square rod-shaped structure, and is vertically disposed, and the upper end of the support rod 52 is fixed to the bottom arc-shaped surface of the sand conveying pipe 5. Referring to fig. 2, a second driving assembly 6 is mounted on the sand conveying pipe 5, and the second driving assembly 6 includes a second motor 61, a first diagonal rod 62 and an auger 63. The axis of the output shaft of the second motor 61 coincides with the axis of the sand conveying pipe 5, and the second motor 61 is fixed with the upper end of the sand conveying pipe 5. The first inclined rod 62 is a round rod-shaped structure, the axis of the first inclined rod 62 coincides with the axis of the output shaft of the second motor 61, one end of the first inclined rod 62 is fixed with the end part of the output shaft of the second motor 61, and the other end of the first inclined rod 62 is rotatably connected with the lower end of the sand conveying pipe 5. The packing auger 63 is made of stainless steel metal material and is wound and fixed on the first inclined rod 62. After the sand material got into in the sand material conveyer pipe 5, the staff only need open second motor 61, and second motor 61 drives first down tube 62 and rotates after the work to drive auger 63 and take place to rotate, make auger 63 carry to sand material conveyer pipe 5 upper end along sand material conveyer pipe 5 with this, and discharge from sand material exit tube 51 of sand material conveyer pipe 5.

As shown in fig. 2, the box 1 is further provided with a cleaning assembly 7, and the cleaning assembly 7 comprises a third bracket 71, a fourth bracket 72, a third motor 73, a second inclined rod 74 and bristles 75. The third bracket 71 is U-shaped, and both ends thereof are fixed to the upper surface of the case 1. The fourth bracket 72 is also U-shaped, two ends of the fourth bracket are fixed to the upper surface of the box 1, the fourth bracket 72 and the third bracket 71 are respectively located at two sides of the box 1, and the height of the third bracket 71 is greater than that of the fourth bracket 72. The axis of the output shaft of the third motor 73 is parallel to the generatrix of the top of the drum 3, and the third motor 73 is fixed on the side wall of the third bracket 71 on the side away from the fourth bracket 72. The second inclined rod 74 is a round rod-shaped structure, the axial direction of the second inclined rod is also parallel to the generatrix direction of the top of the roller 3, the upper end of the second inclined rod 74 is fixed with the output shaft of the third motor 73 through a coupler 76, and the lower end of the second inclined rod 74 is rotatably connected with the fourth bracket 72. The brush hairs 75 are fixed on the arc surface of the second inclined rod 74, and one end of the brush hairs 75 far away from the second inclined rod 74 is tightly pressed with the arc surface of the top of the roller 3. In the process of sand separation, the worker only needs to start the third motor 73, the third motor 73 drives the second inclined rod 74 fixed with the third motor to rotate after working, and meanwhile, the bristles 75 synchronously rotate along with the inclined rods, so that the surface of the rotating roller 3 is cleaned, and the probability of blockage of the sieve holes 31 on the roller 3 is reduced. In addition, the worker adjusts the operation direction of the third motor 73, so that the third motor 73 drives the inclined rod and the rotation direction of the bristles 75 is opposite to the rotation direction of the roller 3, and the cleaning effect of the bristles 75 on the roller 3 is enhanced.

As shown in fig. 2, the top of the third support 71 and the top of the fourth support 72 are jointly fixed with a protective cover 77, and the bristles 75 are located in the protective cover 77, so that the probability that the bristles 75 are exposed to sunlight and rain is reduced, the bristles 75 are well protected, and the service life of the bristles 75 is prolonged.

The implementation principle of the embodiment is as follows: when sand and stone separation is carried out, workers only need to add mortar waste residues needing to be separated into the roller 3 from the feed inlet 32 of the roller 3, the roller 3 is driven to rotate by the first driving assembly 2, sand materials with smaller particles fall into the blanking hopper 4 from the sieve holes 31, stone materials with larger particles are left in the roller 3, and then the stone materials enter the groove body 13, so that sand and stone separation is realized; simultaneously, the staff only needs to clear up cylinder 3 in real time through clearance subassembly 7, can reduce the grit and block up the possibility of sieve mesh 31 on the cylinder 3 to this has guaranteed going on smoothly of grit separation work.

This scheme is when carrying out the grit separation, the staff only needs to add the mortar waste residue that needs the separation from the feed inlet 32 department of cylinder 3 in to cylinder 3, at this moment, first motor 21 is opened simultaneously to the staff, first motor 21 drives the dwang 22 rotation rather than the output shaft is fixed after the work, dwang 22 then drives rather than fixed dead lever 23 and rotates, thereby make being fixed in cylinder 3 on the dead lever 23 and take place to rotate, the inboard arc surface of cylinder 3 takes place to roll along the mortar waste residue, at this in-process, the less sand material of granule gets into down hopper 4 from sieve mesh 31 whereabouts, afterwards, the sand material gets into in the sand material conveyer pipe 5. And the stones with larger particles continue to roll along the arc-shaped surface of the inner side of the roller 3, finally the stones fall into the groove body 13 from the discharge port 33 of the roller 3 and are discharged out of the box body 1 from the groove body 13, so that the stones are separated. When discharging the sand material in the sand material conveyer pipe 5, the staff only need open second motor 61, second motor 61 drives after the work and rotates rather than the fixed first down tube 62 of output shaft to it takes place to rotate to drive auger 63, and the sand material in the sand material conveyer pipe 5 rises along sand material conveyer pipe 5 gradually at auger 63's drive power effect, discharges from sand material exit tube 51 of sand material conveyer pipe 5 upper end afterwards, with this separation to the sand material has been realized. In the process of grit separation, for avoiding the sand material to block up the sieve mesh 31 on the cylinder 3, the staff only need open third motor 73, and third motor 73 drives the second down tube 74 rather than the output shaft is fixed after the work and rotates to drive brush hair 75 and rotate, in order to clear up cylinder 3, reduced the grit and blockked up the probability of sieve mesh 31 on the cylinder 3, guaranteed going on smoothly of grit separation work.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a ready-mixed mortar waste residue is from station again, includes box (1), inside cavity and open-top of box (1), its characterized in that: be fixed with first support (11) and second support (12) respectively in box (1) bottom wall is close to the position at box (1) both ends, rotate between first support (11) and second support (12) and install cylinder (3), feed inlet (32) and discharge gate (33) have been seted up respectively at the both ends of cylinder (3), a plurality of sieve meshes (31) have evenly been seted up on the arc surface of cylinder (3), install on box (1) and be used for ordering about cylinder (3) pivoted first drive assembly (2), still install on box (1) and be used for unloading cell body (13) of building stones, be used for collecting hopper (4) down of sand material and be used for clearing up clearance subassembly (7) of cylinder (3).

2. The ready-mixed mortar waste residue re-separation station as claimed in claim 1, wherein: the cleaning assembly (7) comprises a third support (71) fixed on one side of the box body (1), a fourth support (72) fixed on the other side of the box body (1), a third motor (73) fixed on the third support (71), a second inclined rod (74) fixed at the end part of an output shaft of the third motor (73) and bristles (75) fixed on the second inclined rod (74), one end, far away from the output shaft of the third motor (73), of the second inclined rod (74) is rotatably connected with the fourth support (72), and the end part of each bristle (75) is tightly abutted to the arc-shaped outer surface of the top of the roller (3).

3. The ready-mixed mortar waste residue re-separation station as claimed in claim 2, wherein: the output shaft of the third motor (73) is fixed with the second inclined rod (74) through a coupler (76).

4. The ready-mixed mortar waste residue re-separation station as claimed in claim 2, wherein: and protective covers (77) used for protecting the bristles (75) are jointly fixed to the tops of the third support (71) and the fourth support (72).

5. The ready-mixed mortar waste residue re-separation station as claimed in claim 1, wherein: still be fixed with sand material conveyer pipe (5) that the slope set up on box (1) lateral wall, the lower extreme of sand material conveyer pipe (5) runs through box (1) lateral wall, hopper (4) lower extreme and sand material conveyer pipe (5) are fixed and communicate down, sand material conveyer pipe (5) are close to and are fixed with sand material exit tube (51) on its upper end's the lateral wall, still install on sand material conveyer pipe (5) and be used for promoting sand material from sand material conveyer pipe (5) along sand material exit tube (51) exhaust second drive assembly (6).

6. The ready-mixed mortar waste residue re-separation station as claimed in claim 5, wherein: the area of the upper end opening of the discharging hopper (4) is larger than the area of the cross section of the roller (3) which is coincided with the diameter of the roller (3).

7. The ready-mixed mortar waste residue re-separation station as claimed in claim 5, wherein: the second driving assembly (6) comprises a second motor (61) fixed at the upper end of the sand conveying pipe (5), a first inclined rod (62) fixed at the end part of an output shaft of the second motor (61) and a packing auger (63) fixed on the first inclined rod (62).

8. The ready-mixed mortar waste residue re-separation station as claimed in claim 1, wherein: first drive assembly (2) including be fixed in first motor (21) on first support (11), be fixed in dwang (22) of first motor (21) output shaft tip and be fixed in dead lever (23) on dwang (22), the inboard arc fixed surface of one end and cylinder (3) of dwang (22) is kept away from in dead lever (23), cylinder (3) are the loudspeaker form, and the area of the cross section of cylinder (3) is decreased progressively by the inlet pipe to one side linearity that is close to first motor (21).